Damian C. Brady, Ph.D.
Contact Information
Phone: 207.312.8752
°ä³Õ:ÌýDamian Brady’s CV
·¡³¾²¹¾±±ô:Ìýdamian.brady@maine.edu
Lab website:
Address:
Darling Marine Center
University of Maine
Walpole, MEÌý 04573-3307
Education
Ph.D. University of Delaware 2008
Description
Dr. Damian C. Brady is a Professor of Oceanography based at the Darling Marine Center. His research interests, while broad, focus on how models can inform better decision-making in marine ecosystems to reflect the values of the coastal communities that rely on them. The decision-making contexts have included aquaculture, offshore wind, marine carbon dioxide removal, the American lobster fishery, sea-run fish, and coastal water quality. The Gulf of Maine is an important economic driver for the region with important fisheries and aquaculture operations; however, dynamic new ocean industries are emerging, such as recirculating aquaculture systems, floating offshore wind, and marine carbon dioxide removal. Many of these new and emerging technologies purport to address our pressing climate change induced challenges. To determine whether these emerging technologies can address these challenges, our team develops, calibrates, and validates tools, such as techno-economic analyses, marine ecosystem models, remote sensing, and oceanographic buoys, to collect objective, science-based information and importantly, communicate these results to coastal communities.
Dr. Brady co-chairs the Science and Technical Subcommittee for the Governor of Maine’s Climate Action Plan,ÌýMaine Won’t Wait, serves on the Governor’s Offshore Wind Research Consortium, and serves on the board of the Maine Aquaculture Innovation Center. From 2019-2023, Dr. Brady chaired the Regional Association for Research on the Gulf of Maine. In 2019, Dr. Brady was named the Agatha B. Darling Professor of Oceanography and lives in Damariscotta, Maine with his wife, three daughters, and a rabbit named George.
Follow us on Twitter: @BradyBunchDMC
Publications
Manuscripts in review or revision
Noren, C., Coleman, S., Brayden, C., Chingos, A., Morse, D., Peters, A., & Brady, D.C. (accepted pending revision) Techno-economic assessment of ear-hanging equipment in Atlantic sea scallop, Placopecten magellanicus, aquaculture in the Gulf of Maine. Aquaculture
Jarrett, R.N., Reardon, K., Steneck, R., & Brady, D.C. (in review) Multiple independent indicators of American lobster in Maine: Patterns in space and time. Marine Ecology Progress Series
Krasnow, R., Kiffney, T., Cuddy, R., & Brady, D.C. (accepted pending revision) Interacting effects of environment and cultivation method on biofouling of farmed oysters (Crassostrea virginica). Journal of the World Aquaculture Society
Farrell, S.P., Petras, D., Stincone, P., Yiu, D.S., Burns, J.A., Shah, A.K.P., Hartmann, A.C., Brady, D.C., & Rasher, D.B. (in 2nd revision, 2025) Turf algae redefine the chemical landscape of temperate reefs, limiting kelp forest recovery. Science
Ross, C.H., Roberts, J.J., Pendleton, D.E., Brady, D.C., Stamieszkin, K., Record, N. (accepted pending revision) Incorporating prey fields into North Atlantic right whale density surface models. Endangered Species Research
Schultz, C., Luo, J.Y., Brady, D.C., Fulweiler, R.W., Long, M.H., Petrik, C.M., Testa, J., Benway, H.M., Burdige, D., Cecchetto, M.M., Elegbede, I., Evans, N., Frenzel, A., Gillen, K., Herbert, L.C., Hirsch, H., Lessin, G., Levin, L., Maiti, K., Malkin, S., Mincks, S.L., Nmor, S., Pham, A., Pinckney, J., Rabouille, C., Rahman, S., Rakshit, S., Ray, N.E., Sasaki, D.K., Siedlecki, S.A., Somes, C., Stubbins, A., Sulpis, O., Trevisan, C., Xu, Y., Yin, H. (in review) Elucidating the role of marine benthic carbon in a changing world. Proceedings of the National Academy of Sciences
Goode, A., Brown, C., Drouin, J., Kleman, K., Reardon, K., Wahle, R., & Brady, D.C. (in review) Heterogeneous habitat use and limitations on benthic settlement of American lobster, Homarus americanus, in the Gulf of Maine.ÌýMarine Ecology Progress Series
In press
Krasnow, R., Kiffney, T., Cuddy, R. & Brady, D.C. (2025) Interacting effects of environment and cultivation method on biofouling of farmed oysters (Crassostrea virginica). Journal of the World Aquaculture Society.
Lancaster, E., Grey, E., Brady, D.C., & Frederich, M. (2025) Squishy and Crunchy Invasive Invertebrates: environmental DNA is not shed equally. Environmental DNA.
Noren, C.B., Coleman, S., St. Gelais, A., Morse, D., Kiffney, T., Peters, A., & Brady, D.C. (2025) Comparing growth of ear-hanging and lantern net cultured Atlantic sea scallops, Placopecten magellanicus, over a complete grow-out cycle to determine optimal harvest timing. Aquaculture.
Jarrett, R.N., Brady, D.C., Wahle, R.R., & Steneck, R.S. (2024) Shifts in habitat use and demography of American lobsters in coastal Maine over the past quarter century. Marine Ecology Progress Series.
Rzeszowski, E. J., Reardon, K.M. and Brady, D.C. (2024) Integrating in situ environmental covariates in an American lobster catch model to improve impact assessment, Fisheries Research, 280, 107163, .
Friedland, K. Fratantoni, P., Melrose, C., Morse, R., Large, S., Townsend, D. Brady, D.C., Friedrich, M., Silver, A., Gangopadhyay, A. (2024) Changing source waters on the Northeast US Continental Shelf: variation in nutrient supply and phytoplankton biomass. Continental Shelf Research 281, 105319, .
Testa, J.M., Liu, W., Boynton, W.R., Breitburg, D., Friedrichs, C., Li, M., Parrish, D., Trice, T.M., & Brady, D.C.ÌýPhysical and Biological Controls on Short-Term Variations in Dissolved Oxygen in Shallow Waters of a Large Temperate Estuary.ÌýEstuaries and CoastsÌý(2024).
Lancaster, E. R., D. C. Brady, and M. Frederich (2024). In Hot Water: Current Thermal Threshold Methods Unlikely to Predict Invasive Species Shifts in NW Atlantic. Integrative and Comparative Biology, doi:10.1093/icb/icae102.
Rzeszowski, E. J., K. M. Reardon, H. Henninger, J. T. Carloni and D. C. Brady (2024). Building confidence: Developing image-based methods to incorporate fishery-collected data in the American lobster stock assessment. Fisheries Research 276: 107055.
Friedland, K. D., Nielsen, J.M., Record, N. R., Brady D. C., & Morrow, C.J. (2024). The phenology of the spring phytoplankton bloom in the North Atlantic does not trend with temperature. Elementa: Science of the Anthropocene 12(1).
Leeman, C., Bouchard, D.A., Payne, E., Wahle, R.A., & Brady, D.C. (2024) Predicting delayed post-harvest mortality in American lobster (Homarus americanus) using reflex impairment.ÌýFisheries Research. 272 106948: Ìý
Stevens, J., Jech, J.M., Zydlewski, G., & Brady, D.C. (2023) Response of estuarine fish biomass to restoration in the Penobscot River, Maine.ÌýEstuaries and Coasts.Ìý*
* : Highlighted in Coastal & Estuarine Science News (CESN)
Ishaq, S.L., Hosler, S., Dankwa, A., Jekielek, P., Brady, D.C., Grey, E., Haskell, H., Lasley-Rasher, R., Pepperman, K., Perry, J., Beal, B., & Bowden, T.J. (in revision)ÌýBacterial community trends associated with sea scallop,ÌýPlacopecten magellanicus, larvae in a hatchery system.ÌýAquaculture Reports.Ìý
Tavora, J., Jiang, B., Kiffney, T., Bourdin, G., Gray, P.C., de Carvalho, L.S., Hesketh, G., Schild, K.M., de Souza, L.F., Brady, D.C., & Boss, E. (2023) Recipes for the Derivation of Water Quality Parameters Using the High Spatial Resolution Data from Sensors on Board Sentinel-2A, -2B and Landsat-5, -7, -8, -9 Satellites.ÌýJournal of Remote SensingÌý
McManus, M. C., Brady, D.C., Brown, C., Carloni, J. T., Giffin, M., Goode, A.G., Kleman, K., Lawton, P., Le Bris, A., Olszewski, S., Perry, D.N., Rochette, R., Shank, B.V., Wilson, C. M. and Wahle, R. A. (2023). The American Lobster Settlement Index: History, lessons, and future of a long-term, transboundary monitoring collaborative.ÌýFrontiers in Marine Science 9.Ìý
Fredriksson, D.W., St. Gelais, A., Dewhurst, T., Coleman, S., Brady, D.C., & Costa-Pierce, B.A. (2023) Mooring tension assessment of a single line kelp farm with quantified biomass, waves, and currents.ÌýFrontiers in Marine Science. Special Issue: Offshore Aquacultural Engineering and Its Interaction with the Marine Environment.Ìý
Ross, C.H., Runge, J.A., Roberts, J.J., Brady, D.C., Tupper, B., & Record, N.R. (2023) Estimating North Atlantic right whale prey based onÌýCalanus finmarchicusÌýthresholds.ÌýMarine Ecology Progress Series.Ìý
Friedland, K.D., Adams, E.M., Goetsch, C., Gulka, J., Brady, D.C., Rzeszowski, E., Crear, D.P., Gaichas, S., Gill, A.B., McManus, M.C., Methratta, E., T., Morano, J.L., & Staudinger, M. (2023) Forage fish species prefer habitat within designated offshore wind energy areas on the US Northeast Shelf ecosystem.ÌýMarine and Coastal Fisheries.Ìý
Friedland, K.D., Record, N., Pendleton, D. Balch, W., Stamieszkin, K., Moisan, J., & Brady, D.C. (2023) Asymmetry in the rate of warming and the phenology of seasonal blooms in the Northeast US Shelf Ecosystem.ÌýICES Journal of Marine Science.Ìý
Craig, J.K., Huebert, K.B., Rose, K.A., Rice, J.A., & Brady, D.C. (2023) Searching for Oxygen: Dynamic Movement Responses of Juvenile Spot (Leiostomus xanthurus) in an Intermittently Hypoxic Estuary.ÌýEstuaries and Coasts.Ìý
Tian, R., Cai, X., Testa, J.M., Brady, D.C., Cerco, C.F., Linker, L. (2023) Simulation of high-frequency dissolved oxygen dynamics in a shallow estuary, the Corsica River, Chesapeake Bay.ÌýFrontiers in Marine ScienceÌý
Coleman, S., Dewhurst, T., Frediksson, D.W., St. Gelais, A., Cole, K., MacNicoll, M., Laufer, E., & Brady, D.C. (2022) Quantifying baseline costs and cataloging potential optimization strategies for kelp aquaculture carbon dioxide removal.ÌýFrontiers in Marine Science.Ìý
Coleman, S., St. Gelais, A., Fredriksson, D., Dewhurst, T., & Brady, D.C. (2022) Identifying scaling pathways and research priorities for kelp aquaculture nurseries using a techno-economic modeling approach.ÌýFrontiers in Marine Science.Ìý
Leeman, C., Martin, E., Coleman, S., Gray, M.W. & Brady, D.C. (2022) The potential socio-environmental advantages of repurposing lobster impoundments for eastern oyster (Crassostrea virginica) aquaculture.ÌýAquaculture. 554: 738130.Ìý
Jiang, B., Boss, E., Kiffney, T.J., Hesketh, G., Bourdin, G., Fan, D., & Brady, D.C. (2022) Oyster aquaculture site selection using high resolution remote sensing: A case study in the Gulf of Maine, USA.ÌýFrontiers in Marine Sciences.Ìý
Friedland, K.D., Miles, T., Goode, A.G., Powell, E.N., & Brady, D.C. (2022) The Middle Atlantic Bight Cold Pool is warming and shrinking: indices fromÌýin situÌýautumn seafloor temperatures.ÌýFisheries Oceanography.Ìý
Both, A., C. J. Byron, D. C. Brady, B. Costa-Pierce, L. M. Mayer and C. C. Parrish (2022) Solubilization of nutritional lipids from three coastal and estuarine primary producers using sodium taurocholate as a model surfactant to mimic typical consumer gut-fluids.ÌýJournal of Experimental Marine Biology and EcologyÌý548: 151686.Ìý
Farr, E.R., Johnson, M.R., Nelson, M.W., Hare, J.A., Morrison, W.E., Lettrich, M.D., Vogt, B., Meaney, M., Howson, U.A., Auster, P.J., Borsuk, F.A., Brady, D.C., Cashman, M.J., Colarusso, P. Grabowski, J.H., Hawkes, J.P., Mercaldo-Allen, R., Packer, D.B., Stevenson, D.K. (2021) An assessment of marine, estuarine, and riverine habitat vulnerability to climate change in the Northeast U.S.ÌýPLoS ONE 16(12): e0260654.Ìý
*Highlighted by NOAA:Ìý
Coleman, S., Morse, D., Brayden, W.C., & Brady, D.C. (2021) Developing a bioeconomic framework for scallop culture optimization and product development.ÌýAquaculture Economics & ManagementÌý
Liberti, C.M., Gray, M.W., Mayer, L., Testa, J.M., Liu, W. & Brady, D.C. (2021) Auto-acidification: Examining the effects of oyster aquaculture on estuarine carbonate carrying capacity.ÌýElementa: Special Issue on the Gulf of Maine 2050Ìý10 (1): 00057.Ìý
Stevens, J. R., J. M. Jech, G. B. Zydlewski and D. C. Brady (2021). Estimating target strength of estuarine pelagic fish assemblages using fisheries survey data.ÌýThe Journal of the Acoustical Society of AmericaÌý150(4): 2553-2565.Ìý
Hillyer, G., Liu, W., McGreavy, B., Melvin, G., & Brady, D.C. (2021) Using a stakeholder-engaged approach to understand and address bacterial transport on soft-shell clam flats.ÌýEstuaries and Coasts.Ìý
*Featured in Coastal and Estuarine Science News (CESN):Ìý
Coleman, S., T. Kiffney, K. R. Tanaka, D. Morse and D. C. Brady (2021). Meta-analysis of growth and mortality rates of net cultured sea scallops across the Northwest Atlantic.ÌýAquaculture.Ìý
Gassett, P.R., O’Brien-Clayton, K., Bastidas, C., Rheuban, J.E., Hunt, C.W., Turner, E., Liebman, M., Silva, E., Pimenta, A.R., Grear, J., Motyka, J., McCorkle, D., Stancioff, E., Brady, D.C., & Strong, A.L. (2021) Community science for coastal acidification monitoring and research.ÌýCoastal Management.Ìý
Pershing, A., Alexander, M., Brady, D.C., Brickman, D., Curchitser, E., Diamond, T., McClenachan, L., Mills, K.E., Nichols, O.C., Pendleton, D., Record, N.R., Scott, J., Staudinger, M.D., & Wang, Y. (2021) Climate Impacts in the Gulf of Maine Ecosystem: A Review of Observed and Expected Changes in 2050 from Rising Temperatures.ÌýElementa: Special Issue on the Gulf of Maine 2050.Ìý9Ìý(1): 00076.Ìý
Hood, R.R., Shenk, G.W., Dixon, R.L., Smith, S.M.C., Ball, W.P., Bash, J.O., Batiuk, R.,Ìý Boomer, K., Brady, D.C., Cerco, C., Claggett, P., de Mutsert, K., Easton, Z.M., Elmore, A.J., Friedrichs, M.A.M, Harris, L.A., Ihde, T.F., Lacher, I., Li, L., Linker, L.C., Miller, A., Moriarty, J., Noe, G.B., Onyullo, G., Rose, K., Skalak, K., Tian, R., Veith, T.L., Wainger, L., Weller, D., Zhang, Y.J. (2021) The Chesapeake Bay Program Modeling System: Overview and Recommendations for Future Development.ÌýEcological ModellingÌý456:Ìý109635.Ìý
Friedland, K. D., J. R. Moisan, A. A. Maureaud, D. C. Brady, A. J. Davies, S. J. Bograd, R. A. Watson and Y. Rousseau (2021). Trends in phytoplankton communities within large marine ecosystems diverge from the global ocean.ÌýCanadian Journal of Fisheries and Aquatic SciencesÌý78(11): 1689-1700.ÌýÌý*
*ÌýEditor’s Choice
Grebe, G., Byron, C., Brady, D.C., St. Gelais, A., & Costa-Pierce, B (2021) The effect of distal-end trimming onÌýSaccharina latissimaÌýmorphology, composition, and productivity.ÌýJournal of the World Aquaculture SocietyÌý1-18. doi:10.1111/jwas.12814
Newell, C.R., Hawkins, A.J.S., Morris, K., Boss, E., Thomas, A.C., Kiffney, T.J., & Brady, D.C. (2021) Using high resolution remote sensing to characterize suspended particulate organic matter as bivalve food for aquaculture site selection.ÌýJournal of Shellfish Research.Ìý40(1): 113-118.Ìý
Siedlecki, S.A., Salisbury, J., Gledhill, D.K., Bastidas, C., Meseck, S., McGarry, K., Hunt, C.W., Alexander, M., Lavoie, D., Wang, Z.A., Scott, J., Brady, D.C., Mlsna, I., Azetsu-Scott, K., Liberti, C.M., Melrose, D.C., White, M., Pershing, A., Vandemark, D., Townsend, D.W., Chen, Changsheng, Mook, W., & Morrison, R. (2021) Projecting ocean acidification impacts for the Gulf of Maine to 2050: New tools and expectations.ÌýElementa: Special Issue on the Gulf of Maine 2050Ìý
Testa, J.M., Basenback, N., Shen, C., Cole, K., Moore, A., Hodgkins, C., & Brady, D.C. (2021) Modeling impacts of nutrient loading, warming, and boundary exchanges on hypoxia and metabolism in a shallow estuarine ecosystem.ÌýJournal of the American Water Resources Association (JAWRA)Ìý
Coleman, S., Cleaver, C., Morse, D., Brady, D.C. & Kiffney, T. (2021) The coupled effects of stocking density and temperature on Sea Scallop (Placopecten magellanicus) growth in suspended culture.ÌýAquaculture Reports.Ìý20: 100684.Ìý
Friedland, K.D., Methratta, E., Gill, A., Gaichas, S., Curtis, T., Adams, E., Morano, J., Crear, D., McManus, C., & Brady, D.C. (2021) Resource Occurrence and Productivity in Existing and Proposed Wind Energy Lease Areas on the US Northeast Shelf.ÌýFrontiers in Marine ScienceÌý
Lewis, K.A., Rose, K.A., DeMutsert, K., Sable, S., Ainsworth, C., Brady, D.C., & Townsend, H. (2021) Using multiple ecological models to inform environmental decision-making.ÌýFrontiers in Marine Science.Ìý8:Ìý283Ìý
Grebe, G. S., C. J. Byron, D. C. Brady, A. H. Geisser and K. D. Brennan (2021). The nitrogen bioextraction potential of nearshoreÌýSaccharina latissimaÌýcultivation and harvest in the Western Gulf of Maine.ÌýJournal of Applied PhycologyÌý33(3): 1741-1757.Ìý
Goode, A. G., J. H. Grabowski and D. C. Brady (2021). Evaluating benthic impact of the Gulf of Maine lobster fishery using the swept area seabed impact (SASI) model.ÌýCanadian Journal of Fisheries and Aquatic SciencesÌýdoi:10.1139/cjfas-2020-0305.
Both, A., Byron, C.J., Costa-Pierce, B., Parrish, C.C., & Brady, D.C. (2020) Detrital Subsidies in the Diet ofÌýMytilus edulis; Macroalgal Detritus Likely Supplements Essential Fatty Acids.ÌýFrontiers of Marine SciencesÌý7:561073Ìý
Friedland, K.D., Morse, R.E., Shackell, N., Tam, J., Morano, J.L., Moisan, J.R., & Brady, D.C. Changing Physical Conditions and Lower and Upper Trophic Level Responses on the US Northeast Shelf. (2020)ÌýFrontiers in Marine ScienceÌý
Rheuban, J.E., Gassett, P.R., McCorkle, D.C., Hunt, C., Liebman, M.L., Bastidas, C., O’Brien-Clayton, K., Pimenta, A.R., Silva, E., Vlahos, P., Woosley, R.J.J., Ries, J., Liberti, C.M., Grear, J., Salisbury, J., Brady, D.C., Guay, K., LaVigne, M., Strong, A.L., Stancioff, E., Turner, E. (2020) Synoptic assessment of coastal total alkalinity through community science.ÌýEnvironmental Research Letters.Ìý16 024009Ìý
Bricknell, I.; Birkle, S.; Van Kirk, T. Hamlin, H.; Duffy, K.; Brawley, S.; Capistrant-Fossa, K.; Hugenard, K.; Byron, C.; Van Walsum, P.;Ìý Liu , Z.; Zhu , L. ; Johnson, T.; Grebe, G.; Taccardi, E.; Miller, M.; Preziosi, B.; Brady, D.C.; Bowden, T.; Quigley, C.; Moeykens, Cold water aquaculture resilience, a review of the impact of likely scenarios in a climate change vulnerable ecological system (2020)ÌýReviews in Aquaculture. doi:10.1111/raq.12483
Beard, K., Kimble, M., Yuan, J., Evans, K.S., Liu, W., Brady, D.C., Moore, S. (2020) A method for heterogeneous spatio-temporal data integration in support of marine aquaculture site selection.ÌýJournal of Marine Science and Engineering. 8 (2): 96-111
Wang, Z., Chai, F., & Brady, D.C. (2020) Development of a New Sediment Flux Model – Application in Chesapeake Bay.ÌýProgress in Oceanography.Ìý185, 102332Ìý
*Friedland, K.D., Morse, R.E., Manning, J.P., Melrose, D.C., Miles, T., Goode, A.G., Brady, D. C., ÌýKohut, J.T., Powell, E.N. (2020) Trends and change points in surface and bottom thermal environments of the US Northeast Continental Shelf Ecosystem.ÌýFisheries Oceanography. 00: 1-19Ìý
* Wiley Top Cited Paper in Fisheries Oceanography 2020-2021
Scherelis, C., Zydlewski, G.B. & Brady, D.C. (2019) Relating fluctuations in fish abundance to dam removal and environmental conditions in the Penobscot River, Maine, using hydroacoustics.ÌýRiver Research and ApplicationsÌý36: 234-246Ìýdoi:10.1002/rra.3560
Adams, C.M., Mayer, L., Rawson, P., Brady, D.C., & Newell, C. (2019) Detrital protein contribution to oyster nutrition and growth in the Damariscotta estuary, Maine, USA.ÌýAquaculture Environmental InteractionsÌý11: 521-536Ìýdoi:10.3354/aei00330
Oppenheim, N., Wahle, R., Brady, D.C., Goode, A. & Pershing, A. (2019) Forecasting fishery trends in a warming ocean: A modeling framework using early life stages of the American lobster.ÌýEcological Applications.Ìý29(8), e02006 1-10Ìýdoi:
Goode, A., Brady, D.C., Steneck, R., & Wahle, R. (2019) The brighter side of climate change: Ocean warming crosses a biological threshold to amplify an iconic fishery.ÌýGlobal Change BiologyÌý25: 3906–Ìý3917 doi:10.1111/gcb.14778
Johnson, T.R., Beard, K., Brady, D.C., Byron, C.J., Cleaver, C., Duffy, K., Keeney, N., Kimble, M., Miller, M., Moeykens, S., Teisl, M., van Walsum, G.P., Yuan, J. (2019) A social-ecological systems framework to guide marine aquaculture research.ÌýSustainabilityÌý11(9): 2522Ìýdoi:10.3390/su11092522
Staples, K. W., Chen, Y., Townsend, D. W. & Brady, D. C. (2019) Spatiotemporal variability in the phenology of the initial intra-annual molt of American lobster (Homarus americanusÌýMilne Edwards, 1837) and its relationship with bottom temperatures in a changing Gulf of Maine.ÌýFisheries OceanographyÌý28: 468-485Ìýdoi:10.1111/fog.12425
Gray, M. W., Chaparro, O., Huebert, K. B., O’Neill, S. P., Couture, T., Moreira, A., & Brady, D. C. (2019). Life history traits conferring larval resistance against ocean acidification: The case of brooding oysters of the Genus Ostrea.ÌýJournal of Shellfish Research, 38(3), 751-761.Ìý
Bayer, S.R., Wahle, R.A.,ÌýBrady, D.C.,ÌýJumars, P.A., Stokesbury, K.D.E., & Carey, J.D. (2018) Fertilization dynamics in scallop aggregations: reconciling model predictions with field measurements.ÌýEcosphere.Ìý9(8), e02359.
Testa, J.M.,ÌýBrady, D.C.,ÌýMurphy, R., & Kemp, W.M. (2018) Nutrient- and climate-induced shifts in the phenology of linked biogeochemical cycles in a temperate estuary.ÌýFrontiers in Marine Science. 5(114), 1-15Ìýdoi:10.3389/fmars.2018.00114.
Friedland, K.D., Mouw, C.B., Asch, R.G., Ferreira, A.S.A., Henson, S., Hyde, K.J., Morse, R.E., Thomas, A.C., &ÌýBrady, D.C.Ìý(2018) Phenology and time series trends of the dominant seasonal phytoplankton bloom across global scales.ÌýGlobal Ecology and BiogeographyÌý27(5), 551-569Ìýdoi:10.1111/geb.12717.
*Snyder, J., Boss, E., Weatherbee, R., Thomas, A.,ÌýBrady, D.C., and Newell, C. (2017) Oyster aquaculture site selection using Landsat 8-derived sea surface temperature, turbidity, and chlorophyll a.ÌýFrontiers in Marine Science 4(190), 1-11Ìýdoi:10.3389/fmars.2017.00190.
*Publication Highlighted by NASA:ÌýÌý&Ìý
*Du Clos, K.T., Jones, I.T.,ÌýÌýCarrier, T.J.,ÌýBrady, D.C., and Jumars, P.A. (2017) Model-assisted measurements of suspension-feeding flow velocities.ÌýJournal of Experimental BiologyÌý220: 2096-2107.
*Highlighted photo winner in the JEB 2018 Calendar
Frederick, C.,ÌýBrady, D.C., & Bricknell, I. (2017) Landing strips: Model development for estimating body surface area of farmed Atlantic salmon (Salmo salar).ÌýAquaculture 473: 299-302.
Li, B., Tanaka, K.R., Chen, Y., Brady, D.C., & Thomas, A.C. (2017) Assessing the quality of modeled bottom water temperatures from the Finite-Volume Community Ocean Model (FVCOM) in the Northwest Atlantic Region.ÌýJournal of Marine Systems. 173: 21-30.
McHenry, J., Steneck, R., &ÌýBrady, D.C.Ìý(2017) Abiotic proxies for predictive mapping of near-shore benthic assemblages: Implications for marine spatial planning.ÌýEcological Applications 27:Ìý603-618.
Brewer, J., Springuel, N., Wilson, J., Alden, R., Morse, D., Schmitt, C., Bartlett, C., Johnson, T., Guenther, C., &ÌýBrady, D.C.Ìý(2016). Engagement in a Public Forum: Knowledge, Action, and Cosmopolitanism.ÌýAntipode,Ìý49: 273-293.
Bayer, S. R.Ìýa, Wahle, R.A., Jumars, P.A., &ÌýBrady, D.C.Ìý(2016). Measuring scallop fertilization success in the field: chamber design and tests.ÌýMarine Ecology Progress SeriesÌý551:141-154.
*Lasley-Rasher, R.,ÌýBrady, D.C., Smith, B. & Jumars, P.A. (2015). It takes guts to locate mobile crustacean prey.ÌýMarine Ecology Progress Series.Ìý538: 1-12.
*Featured Article in MEPS Volume 538
Testa, J.M.,ÌýBrady, D.C., Cornwell, J.C., Owens, M.S., Sanford, L.P., Newell, R.I.E., Newell, C.R., Richardson, J. & Suttles, S.E. (2015) Modeling the impact of floating oyster aquaculture on sediment-water nutrient and oxygen fluxes.ÌýAquaculture Environment Interactions, 7: 205-222.
Zhang, Q.,ÌýBrady, D.C., Boynton, W.R., & Ball, W.P. (2015) Long-term trends of nutrients and sediment from the non-tidal Chesapeake watershed: An assessment of progress by river and season.ÌýJournal of the American Water Resources Association,Ìý51(6): 1534-1555.
Grieve C,ÌýBrady D.C.,Ìý& Polet H (2015) Best practices for managing, measuring and mitigating the benthic impacts of fishing – Part 2.ÌýMarine Stewardship Council Science SeriesÌý3: 81 – 120.
Grieve, C.,ÌýBrady, D.C.,Ìýand Polet, H. (2014) Best practices for managing, measuring, and mitigating the benthic impact of fishing – Part 1.ÌýMarine Stewardship Council Science SeriesÌý2: 18-88
Testa, J.M., Li, Y., Lee, Y., Li, M.,ÌýBrady, D.C.,ÌýDi Toro, D.M., & Kemp, W.M. (2014) Quantifying the effects of nutrient loading on dissolved O2Ìýcycling and hypoxia in Chesapeake Bay using a coupled hydrodynamic-biogeochemical model.ÌýJournal of Marine Systems, 139: 139-158.
Grieve, C.,ÌýBrady, D.C., & Polet, H. (2014) Best practices for managing, measuring, and mitigating the benthic impacts of fishing – Part 1.ÌýMarine Stewardship Council Science SeriesÌý2: 18-88. (Cited by the Institute for European Environmental Policy: Allocating fishing opportunities using environmental criteria and being proposed as the guide for determining impact as a criterion for allocating quota)
Brady, D.C.Ìý& Targett, T.E. (2013) Movement of juvenile weakfish (Cynoscion regalis) and spot (Leiostomus xanthurus) in relation to diel-cycling hypoxia in an estuarine tributary: Assessment using acoustic telemetry.ÌýMarine Ecology Progress Series, 491: 199-219.
Brady, D.C., Testa, JM., Di Toro, D.M., Boynton, W.R., & Kemp, W.M. (2013) Sediment Flux Modeling: Application and validation for coastal systems.ÌýEstuarine, Coastal, and Shelf Science 117: 107-124.
Testa, J.M.,ÌýBrady, D.C., Di Toro, D.M., Boynton, W.R., Cornwell, J.C., & Kemp, W.M. (2013) Sediment Flux Modeling: Simulating nitrogen, phosphorus, and silica cycles.ÌýEstuarine, Coastal and Shelf Science,Ìý131: 245-263.
McMahan, M.D.,ÌýBrady, D.C., Cowan, D.F., Grabowski, J.H., & Sherwood, G.D. (2013) Using acoustic telemetry to observe the effects of a groundfish predator (Atlantic cod,ÌýGadus morhua) on movement of the American lobster (Homarus americanus).ÌýCanadian Journal of Fisheries and Aquatic Sciences,Ìý70: 1625-1634.
Zhang, Q.,ÌýBrady, D.C., & Ball, W.P. (2013) Long-term seasonal trends of nitrogen, phosphorus, and suspended sediment load from the non-tidal Susquehanna River Basin to Chesapeake Bay.ÌýScience of the Total Environment,Ìý452-453: 208-221.
Brady, D.C. & Targett, T.E. (2010) Characterizing the escape response of air-saturation and hypoxia-acclimated juvenile summer flounder (Paralichthys dentatus) to diel-cycling hypoxia.ÌýJournal of Fish Biology, 77(1): 137-152.
Breitburg, D.L., Craig, J.K., Fulford, R.S., Rose, K.A., Boynton, W.R.,ÌýBrady, D.C., Ciotti, B.J., Diaz, R.J., Friedland, K.D., Hagy, J.D. III, Hart, D.R., Hines, A.H., Houde, E.D., Kolesar, S.E., Nixon, S.W., Rice, J.A., Secor, D.H., & Targett, T.E. (2009) Nutrient enrichment and fisheries exploitation: interactive effects on estuarine living resources and their management.ÌýHydrobiologia,Ìý629(1): 31-47.
Tyler, R.M.,ÌýBrady, D.C., & Targett, T.E. (2009) Temporal and spatial dynamics of diel-cycling dissolved oxygen in estuarine tributaries.ÌýEstuaries and Coasts. 32(1): 123-145.
Brady, D.C., Tuzzolino, D.M., & Targett, T.E. (2009) Behavioral responses of juvenile weakfish,ÌýCynoscion regalis, to diel-cycling hypoxia: swimming speed, angular correlation, expected displacement and effects of hypoxia acclimation.ÌýCanadian Journal of Fisheries and Aquatic Sciences. 66(3): 415-424.
Fennel, K.,ÌýBrady, D.C., Di Toro, D.M., Fulweiler, R., Gardner, W.S., Giblin, A., McCarthy, M.J., Rao, A., Seitzinger, S., Thouvenot-Korppoo, & Tobias, C. (2009) Modeling denitrification in aquatic sediments.ÌýBiogeochemistry. 93(1-2): 159-178.
CBEO Project Team: Ball, W.P.,ÌýBrady, D.C., Brooks, M.T., Burns, R, Cuker, B.E., Di Toro, D.M., Gross, T.F., Kemp, W.M., Murray, L., Murphy, R.R., Perlman, E., Piasecki, M., Testa, J.M., & Zaslavsky, I. (2008) Prototype system for multi-disciplinary shared cyberinfrastructure: Chesapeake Bay Environmental Observatory (CBEO).ÌýJournal of Hydrologic Engineering, ASCE.Ìý13(10): 960-970.
Book Chapters
Newell, C.R.,ÌýBrady, D.C.,Ìý& Richardson, J. (2018) Chapter 24 Farm-scale production models. Chapter inÌýThe G+S Book: Goods and Services of Marine Bivalves. Springer.
Testa, J. M., Y. Li, Y. J. Lee, D. C.ÌýBrady, D.C.ÌýM. Di Toro, and W. M. Kemp. (2017). Modeling physical and biogeochemical controls on dissolved oxygen in Chesapeake Bay: Lessons learned from simple and complex approaches.ÌýinÌýD. Justic, K. Rose, R. Hetland, and K. Fennel, editors. Modeling Coastal Hypoxia: Numerical Simulations of Patterns, Controls and Effects of Dissolved Oxygen Dynamics. Springer-Verlag. Pp. 95-118
Peer Reviewed Reports Targeting Specific Management Actions
Brady, D.C., J.V. DePinto, S.C. Chapra, D.M. Di Toro, M.A.M. Friedrichs, M.W. Gray, T. Jordan, M. Xia. (2018) Scientific and Technical Advisory Committee Chesapeake Bay Water Quality and Sediment Transport Model (WQSTM) Review. STAC Publication Number 18-002, Edgewater, MD. 40 pp.
Ball, W.P., B.D Michael, D.C. Brady, J.L. Martin, S.H. Scott, and P.R. Wilcock (2017) Lower Susquehanna River Reservoir System Model Enhancements Peer Review. CRC Publication No. 17-173, Chesapeake Research Consortium, Edgewater, MD. 59 pp.
Brady, D.C.Ìý& Di Toro, D.M. (2015) Can TMDL Models Reproduce the Nutrient Loading-Hypoxia Relationship? Water Environmental Research Federation (WERF) Final Report No. U4R09
Fitzpatrick, J.,ÌýBrady, D.C., De Pinto, J., Di Toro, D.M., Kemp, W.M., Scavia, D. (2015) Scenario-Based Forecasts in Support of Regional Coastal Management: Concepts of Operation. White Paper Prepared for NOAA/NOS National Centers of Coastal Ocean Science
Brady, D.C. (Environmental Monitoring Team Lead), and Environmental Monitoring Team (2015). Environmental Monitoring Report for VolturnUS Deployment in Castine, ME. Final Report Submitted to the United States Department of Energy. 484 p.
Brady, D.C.Ìý(2014). TMDL Model and Data Evaluation for Delaware’s Inland Bays: Modeling Diel-cycling Hypoxia in Delaware’s Inland Bays. Report to the Center for the Inland Bays.
Aikman, F.,ÌýBrady, D.C.,ÌýBrush, M.J., Burke, P. Cerco, C.F., Fitzpatrick, J.J., He, R., Jacobs, G.A., Kemp, W.M., & Wiggert, J.D. (2014) Modeling approaches for scenario forecasts of Gulf of Mexico hypoxia.ÌýEdited byÌýD.M. Kidwell, A.J. Lewitus, & E. Turner. White Paper from the Hypoxic Zone Modeling Technical Review Meeting, 17-19 April 2013 at the Mississippi State University Science and Technology Center at NASA’s Stennis Space Center in Mississippi, 46 pp.
